Avishai Dekel

Avishai Dekel
Cold streams from the cosmic web feeding a galaxy in the early universe, based on a hydro-cosmological computer simulation (Dekel et al., 2011) The picture shows gas density, extending to a half a million light years, when the Universe was 3 billion years old.
Violent gravitational Instability in a disk galaxy in the early universe, based on a hydro-cosmological computer simulation (Dekel et al., 2011) The picture of gas density shows that the disk is fragmented to giant clumps where stars form. The disk radius is 30,000 light years.

Avishai Dekel (born 1951) is a professor of physics at The Hebrew University of Jerusalem, Israel, holding the Andre Aisenstadt Chair of Theoretical Physics. He is performing research in astrophysics and cosmology. Prof. Dekel got his Ph.D. from the Hebrew University in 1980, and was a research fellow at Caltech and an assistant professor at Yale University before joining the faculty of The Hebrew University in 1986. He served as the Head of The Racah Institute of Physics (1997–2001), the Dean of the Authority for the Community and Youth at The Hebrew University (2005–2011), and the President of the Israel Physical Society (2008–11). He headed the university computing committee, was a member of the executive committee of the board of trustees and a member of the standing committee of The Hebrew University. Prof. Dekel is a frequent visitor to the University of California, Santa Cruz, as well as to other leading universities in the US and Europe. Among other professional honors, he has been awarded a Miller professorship at UC Berkeley, a Blaise Pascal International Chair of Research by the École Normale Supérieure in Paris (2004–06), and a Lagrange fellowship in IAP Paris (2015-16).

Prof. Dekel is known for his contributions to research in cosmology, especially the study of the formation of galaxies and large-scale structure in the Universe, which is dominated by dark energy and dark matter. [1][2] He is most well known for the understanding of dwarf galaxies and supernova feedback (1986, 2003), for the analysis of large-scale cosmic flows and the early estimates of fundamental cosmological parameters (1989-2001), [3] for the studies of the structure of dark-matter galactic halos (2000–2003), and for his contributions to central issues in the theory of galaxy formation (2003–2012). [4][5]

His recent research focuses on galaxy formation in its most active phase at the early universe, using analytic models and state-of-the-art computer simulations. He is studying how continuous streams of cold gas and merging galaxies from the cosmic web lead to star-forming disks and drive violent gravitational disk instability, and how this instability leads to the formation of compact spheroidal galactic components with central massive black holes.

Notes

  1. Alan P. Lightman (1993), Ancient Light: Our Changing View of the Universe, Harvard University Press, p. 134, ISBN 978-0-674-03363-4
  2. M. S. Longair (2006), The cosmic century: a history of astrophysics and cosmology, Cambridge University Press, p. 360, ISBN 978-0-521-47436-8
  3. "More evidence for the accelerating universe", Physics World (Institute of Physics), 17 September 1999, retrieved 12 December 2012
  4. Eric Hand (1 April 2009), "Early galaxies surprise with size", Nature News, doi:10.1038/news.2009.225
  5. Rachel Courtland (21 January 2009), "Dark matter filaments stoked star birth in early galaxies", New Scientist, retrieved 12 December 2012

External links

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